21 Feb 2011: Interview

Unraveling the Mystery Of The Bizarre Deformed Frogs

Yale ecologist David Skelly wanted to know why a sizable percentage of frogs in the northeastern United States suffered from deformities. His ongoing research has implicated human activity — but not in the way many researchers had thought.

by carl zimmer

For the last two decades, strange things have been happening to frogs. Some frog populations have high rates of limb deformities, while others have high incidences of what is known as “intersex” — traits associated with both males and females, such as male frogs whose testes contain eggs.

David K. Skelly, professor of ecology at the Yale School of Forestry & Environmental Studies, set out to discover what was causing these deformities, which some researchers were attributing to the use of an agricultural pesticide called atrazine. Skelly launched an experiment in ponds throughout Connecticut, studying frogs in four landscapes: forests, agricultural areas, suburbs, and cities. And what he found was surprising — the highest rates of deformities were not occurring in and around farmlands, but in cities and suburbs.

Yale University

David K. Skelly

In an interview with Yale Environment 360 contributing writer Carl Zimmer, Skelly described what chemicals may be causing these abnormalities in frog populations, and explained why this phenomena may have troubling implications not only for amphibians, but for other vertebrates, including humans. One thing seems clear: The deformities showing up in frogs are almost certainly not caused by a single chemical, but rather by a whole suite of substances — including medicines excreted by humans into the environment — that act in concert to mimic hormones like estrogen or cause other ill effects.

“The fact that these kinds of estrogens out in the environment can have this kind of effect on a vertebrate — many people would say that that alone is a basis for us to be concerned,” says Skelly.

Yale Environment 360: You came to the question of pollution not as a medical researcher but as a wildlife biologist — you studied frogs. Tell us how that happened.

David Skelly: Well, as an ecologist, I start with the animals. When I started on this project I really didn’t know whether I was going to be studying pollution or what. I started off trying to understand where sexual deformities in amphibians came from in the environment. There had been some laboratory work that did in fact use pollutants and figure out whether exposure through pollutants like pesticides might cause these kinds of deformities. But to me, the cart was before the horse because we really didn’t understand the natural history of reproductive deformities in many groups.

e360: When did people first notice that there was something weird going on with these frogs?

Skelly: Really the laboratory work in this case came first. About ten years ago people started doing laboratory experiments with amphibians, and some work on atrazine, a pesticide, was important because it was showing that extremely low concentrations of the pesticide might lead to these kinds of deformities.

e360: And what deformities are you talking about?

Skelly: The deformities in particular are traits that are associated with animals that have characteristics of both males and females. And there are lots of different possibilities. The ones that we’ve been concentrating on and the ones that are most clear are, say, a frog that looks like a male and has testes, but when you look inside the testes there are eggs growing in there. That’s an attribute that you can say suggests intersex, a condition in between male and female.

David Skelly/Yale University

Skelly found deformities in almost all ponds sampled in suburban and urban landscapes.

So then after these lab results came out people started going out into the field and, lo and behold, they found these deformities sometimes to be quite common in natural populations. That was interesting because certainly in the past we’ve known about these deformities for a hundred years. And in fact, a lot of what we know about sexual development in animals, and invertebrates in particular, was worked out in amphibians as a model system. And people have looked for them in natural populations before, but until this recent spate of work starting about ten years ago they hadn’t been found to be common in too many places. What we found more recently is that in a variety of studies people are finding them to be quite common. What worried me about the work that had been done so far is that because the laboratory work had been focusing on agricultural pesticides, people went out and basically looked at gradients of agricultural intensity, or just worked in agricultural landscapes.

e360: So they think because atrazine in the lab can cause intersex deformities, let’s go look at places where these pesticides are used, like on farms?

Skelly: Yeah. On one level that makes a lot of sense. But on another level it can be misleading. You can tend to reach a conclusion that isn’t warranted because if you say I’m just going to go look in agricultural landscapes and I find these deformities there and I’ve done the laboratory work to show that exposure to the pesticide can lead to these deformities, you might just wipe your hands and say we’re done here. But what we didn’t know is what about all these other landscape types? Are deformities showing up in those landscapes as well? And that was really our goal — to ask very broadly, how often is this happening? Where is it happening? What does the landscape of amphibian intersex look like? And what we found was pretty surprising.

e360: Where did you go and what did you do to do the study?

Skelly: The prior work on amphibian intersex had primarily been done in the West and the Midwest. There was a study down in Florida. Nobody had looked at all in the northeastern United States and that’s where I’m based. So we worked in Connecticut, specifically in the Connecticut River Valley, and one of the nice things about Connecticut is that it’s got a pretty

We find intersex frogs in agricultural landscapes, but in suburban and urban landscapes at three times the rate.”

compact size but there is pretty high diversity of land-cover types. So there is an active agricultural landscape in Connecticut, there are certainly a lot of suburbs. There are urban areas and there are still a lot of forests in Connecticut. Connecticut ranks third or fourth in the nation for population density, and it ranks third or fourth in the nation for the proportion forested. We can take advantage of that. So we worked in a set of land cover types: agricultural; undeveloped, which in Connecticut means forested; suburban, people with lawns and houses and schools and that sort of stuff; and urban, mostly around Hartford.

So essentially we took the entire state and categorized areas around small ponds as fitting into one of those categories and then sub-sampled them randomly. And what we found is that we can find intersex frogs in a variety of landscapes. We find them in agricultural landscapes, but we find them in suburban and urban landscapes at three times the rate. So if they’re concentrated anywhere, they’re concentrated in these more densely settled places — places where people live and work. We didn’t find them in wooded landscapes, these undeveloped landscapes.

e360: So whatever is happening has something to do with human activity, since you’re not seeing it in the wooded landscapes.

Skelly: Right. So we feel very confident at this point that whatever is going on seems to be associated with some kind of human activities and we are finding it in agricultural landscapes so it’s not that whatever goes on in agricultural landscapes is inconsistent with it happening... [But] I think the fact that we found that in those kinds of landscapes where corn is being grown, the great majority of the ponds we sampled didn’t have any deformities at all. It suggests to me that whatever is going on in those landscapes compared with the suburban and urban ones, we’re not getting a signal that strongly points towards agricultural pesticides. Not at this point — we’ve got more work to do. But one of the striking things is that almost all the ponds in the suburbs and urban landscapes have deformities in them. So this is something that is practically ubiquitous in those places and yet is showing up in a much more spotty manner in agricultural landscapes.

e360: So if atrazine is not the only factor, what are your suspicions about what else might be going on?

Skelly: Well it’s pretty well known that amphibians, fish, and frankly vertebrates in general can be influenced by hormones that are just out there in the environment. There are actually whole biological systems that depend on that happening naturally. But it’s also clear that we put a lot of hormones into the environment. And in particular we know that estrogen exposure can lead to the kinds of deformities we are seeing. So we would be irresponsible if we didn’t at least explore that avenue. It seems like a pretty reasonable set of hypotheses at this point just to imagine that there’s a bunch of estrogens out there in the environment and perhaps atrazine is one of them.

There are dozens of chemicals that humans create to actually act as estrogen. Birth control pills are a perfect example. The estrodial people take as birth control or as prostate medicine, it goes through our bodies, it may get complexed with something, and then we excrete it and it can become active again in the environment. I mean that’s not hype, that’s

It is widely accepted that the way that toxins work in the environment is often in concert.”

absolutely been shown to happen as a matter of course. So that’s a very potent estrogen. And those molecules are reasonably durable. But there are many other chemicals that were not created to be estrogens and yet can act like estrogens once they’re out there. So one that many people may have heard of is Bisphenol A. That’s the chemical BPA and there was federal legislation to remove it from baby bottles. It’s a plasticizer. So it’s an industrial chemical that’s supposed to help us create something and then as a totally unintentional byproduct it can have this other kind of biological activity.

And it turns out there’s a variety of chemicals with molecules shaped such that they can bind to receptors on our cells, or in cells of frogs that are intended to receive estrogen molecules. And when these receptors bind with these other chemicals they turn that into a signal that says, okay, some estrogen just arrived. And if that happens often enough there are physiological responses in our bodies that in a frog’s testes could lead it to start creating eggs.

So the biology of all that is pretty well worked out. It doesn’t mean there aren’t other possibilities for what might be going on, but we know that these estrogens are out in the environment. We know that a species like frogs can respond to them. What we need to do is see whether the dots connect and whether the exposure happens in these ponds. And then as a follow-up to that, if all that comes together, then another step we need to take is do experiments — not in the laboratory, but out in the natural environment, and see whether we can actually create this kind of a cycle where there’s exposure going on and we can see inside of a natural pond.

So the way that you would nail this down is by experimentally exposing some animals in the field to this kind of cocktail of chemicals that we can first demonstrate are out there in the field, and then see what kind of biological responses we get. That’s the way we can with great certainty figure this out. And it’s important to be pretty certain about it because we’re talking about a variety of chemicals that are in the environment because they’re useful. You know these are people’s medications, they are industrial chemicals, they’re not out there for no reason. And we’re not going to be able to change people’s minds about them unless we have very good evidence suggesting that these effects are happening. And then the question is, what do you do about it?

e360: When you hear that frogs are having these sexual deformities, it sounds creepy. But does it have an actual ecological impact? I mean does the fact that we may be changing the nature of these frogs actually mean something to the wildlife itself?

David Skelly/Yale University

A deformed leopard frog metamorph found near Lake Champlain in Vermont.

Skelly: I think these results are important in two very different ways. Beyond being creepy, the fact that these kinds of estrogens out in the environment can have this kind of effect on a vertebrate — many people would say that that alone is a basis for us to be concerned. Because there are many other species that share some of the same biological pathways that frogs have. And that includes people, where we don’t want the possibility of this going on. So you can get precautionary about it and just say this isn’t about frog population viability. This is about not wanting to have chemicals that have that kind of biological activity out there.

e360: So back when Rachel Carson was writing Silent Spring, she was focusing on DDT and there was a certain clarity there where she could focus on one pollutant. And here we have a situation today where you have to think about atrazine and all these other chemicals that each individually might have an impact on these frogs and on people, or maybe together cumulatively have an impact. It makes the problem more complicated. How do you deal with that?

Skelly: It is complicated. And I think we’re still grappling, maybe struggling is a better word. The EPA [Environmental Protection Agency] and ecotoxicologists in general have been trying to figure out how to deal with mixtures for some time. So it is widely accepted that the way that toxins work in the environment is often in concert. But the paradigm that you described where beginning with Rachel Carson we were thinking about one chemical at a time — people like the clarity that comes from that. It’s clean and if you do this in the lab you get beautiful results. This standard of pure clear repeatable results has kind of gotten in the way of thinking about how bad things happen out in nature.

One thing that I can see on the horizon is that people are thinking about looking at biological pathways. So we’ve been talking about pathways where estrogens get turned into physiological responses. And instead of thinking about one chemical at a time, what are the chemicals out there that could cause that, and shouldn’t we be managing those as a group? Because we’re talking about medications, we’re talking about industrial chemicals, we’re talking about pesticides.

I think first what we need to do is come up with clear field-based cases where you can show very clearly that it is mixtures causing this and that managing chemicals one at a time isn’t going to work... It’s ironic you mentioned Rachel Carson because she started with a natural history phenomenon and then followed her nose to figure out what was going on, and traced it to a single chemical. It could have easily been traced to a group of chemicals and perhaps the history of environmental regulation would have rolled out differently.

e360: And so we would conceivably be regulating these chemicals in groups? I mean, wouldn’t somebody who makes the birth control pill say, well, we only contribute a tiny amount to this problem so why are you picking on us?

The synthetic chemical, BPA — found in everything from plastic bottles to cash register receipts — is a potent, estrogen-mimicking compound. In an interview, biologist Frederick vom Saal harshly criticizes U.S. corporations and government regulators for covering up — or ignoring — the many health risks of BPA.READ MORE

Skelly: I think that if we do get into thinking about and regulating mixtures of chemicals based on their action, as opposed to their intended use and their origin, it’s going to be an incredibly hairy regulatory problem. And I don’t pretend to understand how to deal with that except to say that there are a couple of bright hopes in this particular example. The first is that we can deal with a lot of chemicals regardless of their origin and regardless of their intent by changing how we manage waste. Right now a state-of-the-art sewage treatment plant has three stages. And what comes out the back end of that includes a lot of organic molecules, including estrogens, that really don’t get molested by the sewage treatment activities very much. If we could add a fourth stage – charcoal, sand bed, or something like that – that could remove a whole suite of things without thinking about what they are. The other way that we can deal with this is to build it into the front end. To build it into research and development of these chemicals so that we’re trying to think about could you create a plasticizer that works like BPA, but doesn’t act like a steroid?

COMMENTS

I just wanted to remind people to go back and reread Rachel Carson's book Silent Spring: while the first half of the book focuses on DDT, the second half examines the then emerging role of cholinesterase-inhibiting pesticides in our environment. 50 years later, this type of pesticide, used in both household pest control applications and in agricultural settings, is still shockingly common. And the warning that Carson made at the end of the book--that cholinesterase inhibitors damage the web of life -- may well be right on the track she tried to warn us about.

Posted by
Lee Bellavance
on 22 Feb 2011

I have been dismayed at the method by which pesticides are tested for toxicity. EPA only requires the testing of the active ingredient, not the commercial product, or the combination of commercial products that are used to kill.

In Washington state I can testify to this because my tidal flats have been contaminated by a combo of glyphosate and imazapyr. In the case of glyphosate environmentalists let it slip by presumably because it was considered a more benign chemical than many others, but also because it was being used to eradicate a non-native species, spartina which was allegedly invasive, that made it okay. Its use was never properly tested. And in the case of Imazapyr, which is 27 percent active ingredient, Imazapyr was never tested for marine toxicity. In 2009, August, EPA wrote the registrant that a risk assessment was adament that Imazapyr should be prohibited in marine and estuarine situations. It is still being used in California, Oregon and Wa. state aquatically. It is likely that the reason for it being registered with no marine toxocity tests was that its registration became politicized. Sen. Murray, was pressured by those eager to eradicate spartina to fast track it with EPA which apparently she did. Aside from the fact that testing only the active ingredient makes the testing irrelevant, its a huge waste of money, much of which is taxpayers money.

Zimmer's articles are right on point. And Skelly is so correct. And just to add, the commercial oystergrowers in Washington state have been using carbaryl since 1964 to kill a native ghost shrimp.

And thats just another known poison that has not been put into the equation.

Posted by
fritzi cohen
on 24 Feb 2011

The really sad thing is the distortion of history via Rachel Carson's fraudulent "case study" of DDT.

Read her book and then actually compare it with reality: Her greatest piece of evidence was robins on the campus of Mich State Univer. Reality: There were never many robins on the campus and DDT was never shown to harm robins even at high doses.

Claims made later (NOT in Carson's Silent Spring) that DDT thinned bird eggshells were shown to only occur when birds were raised on a severely calcium-restricted diet (below 0.5%), enough that even the control birds had reduced hatchability.

FACT: The EPA's own advisory panel after months of testimony and review of studies concluded that there was no evidence DDT harmed birds. DDT was banned by EPA Administrator Ruckelshaus on the as-yet-supported claim that DDT was a "possible human carcinogen". He to this day refuses to discuss let alone demonstrate the basis for his solo decision.

Watch 3 Billion and Counting, the movie to soon be released, and you will be shocked. The humanitarian cost of this political decision is a slow-motion Holocaust.

Posted by
Alex Avery
on 01 Mar 2011

For more information, I strongly recommend reading Sandra Steingraber's books, Living Downstream (about cancer) and Having Faith (about fetal and child development). She has a very engaging style and an excellent grasp of the current science on environmental toxicology.

Posted by
BK
on 08 Mar 2011

On frog deformities, have you heard about the work of the french biologist Jean ROSTAND? He has been studying the "anomalie P" for years and concluded that the teratogen compound was excreted by some fishes. I don't know if this compounds has been identified since then.

Posted by
OD
on 12 Mar 2011

Hey, Alex Avery, I have an idea -- why don't we just start adding DDT to the tap water that everybody drinks? Then you can tell the public that it "cures" malaria while it's "strengthening" your teeth!

Just be sure to hide the bag that has the skull & crossbones on it. Poison is poison, yet the chemical pushers always seem to find some altruistic (and financially lucrative) use for it, along with a PR campaign for its wonderful "benefits."

The film 3 Billion and Counting will be sponsored by Dow Chemical, Monsanto and Merck, right?

So what chemical company do you work for?

Posted by
blakmira
on 17 Mar 2011

Fascinating article - thanks to David (Skelly) for the work in the trenches and Carl Zimmer for the fine journalism piece. I'm reminded of the relatively recent interest in understanding the biological origins of autism spectrum disorders (ASD) and the likely contribution of genetic, epigenetic and environmental factors including chemicals like estrogens. I presume an analogous study like Professor Skelly's has been carried out on the epidemiology of ASD with respect to rural versus urban incidence and that data would support similar skewing (though I regret that I'm unfamiliar with those specific findings, if they have been clearly described). The higher incidence of ASD among males (~4:1) could be associated with an endogenous protective mechanism inherent in females and an increased susceptibility via estrogens in males. For some intriguing biological/genetic findings related to this see article by Sarachana et al., linking sex hormones (androgens and estrogens) and regulation of aromatase and RORA, a new candidate gene for autism: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3040206/?tool=pubmed

Professor Skelly's work underscores the importance of studying simple local biological systems (like frogs) and the impact our global environment and ecology have on plant, animal and human health.

Posted by
Josh Schultz
on 28 Dec 2011

Comments have been closed on this feature.

ABOUT THE AUTHORCarl Zimmer, who conducted this interview for Yale Environment 360, writes about science for The New York Times and a number of magazines. A 2007 winner of the National Academies of Science Communication Award, Zimmer is the author of six books, including Microcosm: E. coli and the New Science of Life. In previous articles for Yale Environment 360, he has written about how ecologists are using network theory and about how global warming will cause an evolutionary explosion for animals and plants.MORE BY THIS AUTHOR

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